Search results
901
[Page extract]
Why Mecmesin for reverse ratchet torque testing
Mecmesin offers torque testing systems engineered to meet the precise demands of child-resistant closure
902
[Page extract]
Introduction to running torque
Running torque testing measures the torque required to keep a component rotating once movement has started.
903
[Page extract]
Interpreting breakaway test results
Understanding test outputs is as crucial as conducting the tests themselves.
Slip torque vs bridge torque
Slip torque reflects the resistance encountered before rotation begins—a measure of seal integrity and usability.
904
[Page extract]
Standards for flexural testing
Consistency in flexural strength testing is achieved through compliance with recognised standards, which define specimen dimensions, loading rates, and reporting requirements.
Key standards include:
905
[Page extract]
Introduction to compressive burst testing
Compressive burst testing is a specialised method for determining the maximum internal pressure a container can withstand before structural failure.
906
[Page extract]
Emerging standards and future developments
Mechanical torque testing continues to evolve alongside changes in manufacturing and material science. Key developments include:
907
[Page extract]
Applications in industrial settings
Insertion and withdrawal testing is not limited to electrical connectors. It is used to validate the performance of:
908
[Page extract]
Why Mecmesin for puncture and shear testing
Mecmesin offers testing systems for puncture and shear applications across films, fabrics, and boards. Our solutions are engineered for accuracy, repeatability, and compliance with international standards.
909
[Page extract]
Why choose Mecmesin for tensile strength testing
Mecmesin has decades of experience in tensile testing, offering systems that deliver precision, repeatability, and compliance with industry standards.
910
[Page extract]
The concentric ring method
The most widely used approach to equibiaxial flexure compression testing is the concentric ring method. A circular specimen is supported on an outer ring and loaded through a smaller, concentric inner ring.
911
[Page extract]
Intuitive test builder
Design and configure step-by-step test routines to match your testing procedures. An intuitive 'drag and drop' interface makes it easy to create, customise and save tests.
912
[Page extract]
Why is the 90-degree peel test important?
Adhesion is fundamental in industries such as packaging, automotive, constructi
913
[Page extract]
Why torque testing is essential in packaging
Prevents leakage in liquid containers
Ensures seal integrity and prevents contamination
Confirms child-resistant closures are effective and compliant
Improves user experience by avoiding over-tightening
<
914
[Page extract]
Mecmesin equipment for double lap shear testing
Mecmesin offers a range of universal testing machines and fixtures for adhesive testing.
915
[Page extract]
Key standards in material testing
Accurate and comparable elongation and recovery data relies on testing in accordance with internationally recognised standards. These define specimen preparation, test speeds, measurement methods, and calculation processes.
916
[Page extract]
Why choose Mecmesin for COF testing
Standards-compliant systems
Mecmesin’s friction testing systems comply with ASTM and ISO standards and offer high repeatability across materials including
917
[Page extract]
Grab method vs strip method
Compared with the strip method (as defined by ISO 13934-1), which grips the full width of the fabric, the grab method
918
[Page extract]
Why Mecmesin for cleavage strength testing
Precision systems for varied materials
Mecmesin provides test solutions for both timber cleavage strength and structural adhesive evaluation.
919
[Page extract]
Mecmesin equipment for tension testing
Precision and flexibility
Mecmesin offers a wide range of systems for tension testing, from the manually operated MultiTest-dV for low-volume or field te
920
[Page extract]
Equipment and safety precautions
To ensure accurate and safe testing, the following components are required:
921
[Page extract]
Introduction to five-point bend testing
The five-point bend test is a specialised method for assessing the mechanical performance of structural panels, particularly their resistance to planar shear forces.
922
[Page extract]
Key standards in compressive deformation testing
Compliance with recognised standards ensures that results are accurate, repeatable, and accepted by regulatory bodies. Examples include:
923
[Page extract]
Destructive and non-destructive methods
Testing may be performed destructively or non-destructively depending on the objectives.
924
[Page extract]
What is Young’s modulus?
Young’s modulus - also known as the modulus of elasticity or elastic modulus - defines how stiff a material is when a force is applied.
925
[Page extract]
Mecmesin solutions for compressive modulus testing
Mecmesin provides precision compression testing systems for accurate modulus determination across a wide range of materials and load capacities.